Patent application number | Description | Published |
20120101251 | Biaxially Oriented Nylon Film, Laminate Wrapping Material and Process for Production of Biaxially Oriented Nylon Film - Biaxially-oriented nylon film according to the present invention is biaxially-oriented nylon film made from nylon. In the biaxially-oriented nylon film, an elongation ratio of the film in each of four directions (an MD direction, a TD direction, a 45 degree direction and a 135 degree direction) until a film rupture is 70 percent or more, the elongation ratio being measured in a tensile test (testing conditions: a sample width is 15 mm; a distance between gauge points is 50 mm; and a tensile speed is 100 mm/min), and a stress ratio A (σ | 04-26-2012 |
20120301650 | CASING MATERIAL FOR PILLOW PACKAGING AND PILLOW PACKAGE - In a casing material, an adhesion layer containing CPP as a main component is laminated on one surface of a biaxially-oriented nylon film and a protection layer is laminated on the other surface of the biaxially-oriented nylon film, the protection layer being formed of a specific resin (e.g., PVDC). Accordingly, a seal strength of the adhesion layer can be increased and strength such as impact resistance can be improved. Consequently, by forming adhesion portions of the pillow package using the adhesion layer, an easily openable and highly strong pillow package can be obtained without using a metal clip. Moreover, since the protection layer is formed of the specific resin such as the PVDC resin, heat resistance and strength are excellent. Accordingly, the biaxially-oriented nylon film is protectable in a retort process by high-temperature water, so that breakage of the package and the like is preventable. | 11-29-2012 |
Patent application number | Description | Published |
20130116622 | MEDICAL DEVICE - A medical device includes a catheter having an opening formed in a side portion of the catheter, an infusion tubing extending within the catheter along an axial direction of the catheter; an infusion needle disposed at a distal portion of the infusion tubing, a connecting part which bendably connects the infusion needle to the distal portion of the infusion tubing, and a bending unit by which the infusion needle located inside the catheter so as to face the opening is bent at the connecting part at essentially a right angle with respect to the distal portion of the infusion tubing. | 05-09-2013 |
20130116721 | Medical Device - A medical device configured to provide a space, allowing a medical instrument to move, in an area of the brain in which the medical instrument is otherwise difficult to move. The medical device includes a catheter provided with an expandable member, wherein the expandable member is expanded to provide a space in which at least a part of a second medical instrument is insertable and movable. | 05-09-2013 |
20130178828 | DEVICE FOR MEDICAL TREATMENT - A medical treatment device enables an injection needle to accurately puncture brain tissue at a prescribed position and a drug solution to be injected into brain tissue, while avoiding damage to the brain tissue as the injection needle is handled. The use of the medical treatment device involves inflating a first balloon located on the outside of a catheter, directing a distal portion of a puncture needle, which is located inside the catheter, to outside the catheter through an opening in the catheter, after which the first balloon is deflated and a second balloon is inflated, and moving the catheter towards the brain tissue located on the opening side so that the injection needle projecting from the opening punctures the brain region. | 07-11-2013 |
20130237952 | MEDICAL DEVICE - A medical device is configured to position a bag member filled with a therapeutic substance in a prescribed region of the brain. The use of this medical device involves, with a sheath inserted in the brain region, filling a therapeutic substance into a bag member through an infusion tube, followed by retracting the sheath relative to the infusion tube until the bag member protrudes forward beyond the distal end of the sheath. After this, the bag member is put indwelling in the brain region by moving an operating member relative to the infusion tube to detach the bag member from the distal end of the infusion tube. | 09-12-2013 |
Patent application number | Description | Published |
20080298274 | METHOD FOR CONFIGURING VIRTUAL NETWORK AND NETWORK SYSTEM - A first computer stores a correspondence between a virtual channel and a physical channel(s) in physical channel information and transmits the correspondence between the virtual channel and the physical channel(s) to a second computer having a virtual network interface to which a data transmission instruction is addressed. Upon receiving the correspondence between the virtual channel and the physical channel(s), the second computer stores the received correspondence in the physical channel information. The first computer transmits data in accordance with the data transmission instruction, using one or more physical channels associated with the virtual channel, based on the correspondence stored. | 12-04-2008 |
20090158004 | TLB Virtualization Method of Machine Virtualization Device, and Machine Virtualization Program - A TLB virtualization method of a machine virtualization device which, in the case where a TLB is shadowed in a virtualization environment, avoids TLB entry conflicts and is capable of improving the performance of a virtualization environment; wherein a hypervisor is executed on a real machine, an OS is operated on a plurality of virtual machines generated by means of processing based on the hypervisor, TLB entry calculations are carried out using RID values in the virtual machines by means of hypervisor processing, the RID values in the virtual machines used in the TLB entry calculations in the real machine are translated into different values in said plurality of virtual machines, and, further, the values of the bit strings of translated RID values are modified. | 06-18-2009 |
20090164991 | COMPUTER VIRTUALIZATION APPARATUS AND PROGRAM AND METHOD THEREFOR - A hypervisor prepares a guest RID-physical RID mapping table for dynamically registering and managing items and performs RID conversion using the guest RID-physical RID mapping table. When the mapping table is used, since it is unnecessary to provide a specific information area representing LPARs corresponding to respective guests in an RID to be converted, there is no limitation concerning the number of LPARs and a problem in operation can be eliminated. | 06-25-2009 |
20100169470 | SYSTEM AND METHOD FOR OPERATIONAL MANAGEMENT OF COMPUTER SYSTEM - This invention provides a method for operational management in a management server of a computer system, the computer system comprising more than one server to be managed and an OS disk image adapted to operate on any one of the servers, the management server being used to manage association between the OS disk image and one of the servers to be managed. The operational management method includes acquiring I/O device recognition information that the OS disk image on a first server to be managed recognizes, then acquiring physical device configuration information that indicates an I/O device configuration of a second server to be managed, and determining, on the basis of the acquired I/O device recognition information and physical device configuration information, whether the OS disk image operates properly when loaded into the second server and executed. | 07-01-2010 |
Patent application number | Description | Published |
20140335639 | METHOD FOR PRODUCING ORGANIC EL DISPLAY PANEL - A manufacturing method of an organic EL display panel includes: preparing G, R, and B inks that each include a solvent and respectively include G, R, and B organic light-emitting materials differing from each other in terms of light-emitting wavelength; applying the G ink to G subpixel regions on a substrate; applying the R ink to R subpixel regions; and applying the B ink to B subpixel regions. The R and B subpixel regions are each adjacent to a corresponding one of the G subpixel regions on both sides thereof. The G ink has a lower viscosity than the R and B inks. After application of the G ink is started, application of the R and B inks is started. | 11-13-2014 |
20140363911 | METHOD FOR PRODUCING ORGANIC EL DISPLAY PANEL - A manufacturing method of an organic EL display panel includes: preparing G, R, and B inks that each include a solvent and respectively include G, R, and B organic light-emitting materials differing from each other in terms of light-emitting wavelength; applying the G ink to G subpixel regions on a substrate; applying the R ink to R subpixel regions; and applying the B ink to B subpixel regions. The R and B subpixel regions are each adjacent to a corresponding one of the G subpixel regions on both sides thereof. The G ink has a lower viscosity than the R and B inks. After application of the R and B inks is started, application of the G ink is started. | 12-11-2014 |
20150028315 | ORGANIC LIGHT-EMITTING DEVICE AND METHOD FOR PRODUCING SAME - An organic light-emitting device includes at least an underlayer, a partition wall, and an organic film. The underlayer is disposed above a substrate. The partition wall covers a first part and surrounds a second part of the surface of the underlayer. The organic film includes organic material, is disposed in a recess formed by the partition wall surrounding the second part, and is in contact with the surface of the underlayer and a surface of the partition wall. The surface of the underlayer has a protruding portion that protrudes in an upward direction. The protruding portion is composed of a top surface and an inclined surface surrounding the top surface. The first part includes least the top surface and a portion of the inclined surface, and an inner edge of the partition wall is in contact with the inclined surface or a level portion of the surface of the underlayer. | 01-29-2015 |
20150069353 | LIGHT EMITTING ELEMENT MANUFACTURING METHOD, LIGHT EMITTING ELEMENT AND DISPLAY PANEL - A method of manufacturing a light-emitting element. The method includes forming an underlayer that includes a reflective electrode, forming a bank that has liquid repellency, irradiating the bank with characteristic energy rays to decrease liquid repellency of the bank, and forming a functional layer. The bank is formed on the underlayer and is provided with an opening and an inclined portion surrounding the opening. The opening has a shape that has a long axis and a short axis and is positioned above the reflective electrode. In plan view, end sections of the inclined portion in a direction of the long axis overlap the upper surface of the reflective electrode, while central sections of the inclined portion in the direction of the long axis do not overlap the upper surface of the reflective electrode. | 03-12-2015 |